Inkjet-based Micromanufacturing

Advanced Micro and Nanosystems 9

195,00 €
(inkl. MwSt.)
In den Warenkorb

Nicht lieferbar

Bibliografische Daten
ISBN/EAN: 9783527319046
Sprache: Englisch
Umfang: XVI, 372 S., 204 s/w Illustr., 13 farbige Illustr.
Auflage: 1. Auflage 2012
Einband: gebundenes Buch

Beschreibung

InhaltsangabePREFACE SYMBOLS AND ACRONYMS INTRODUCTION Overview Combinatorial Chemistry DropOnDemand Inkjet: Piezo Inkjet, Pipejet, Thermal Inkjet, Electrohydrodynamic Inkjet THEORY AND MODELING Inkjet Fundamentals Crosstalk Patterning Drying Sintering INKJET SYSTEMS Inkjet Print Head Monitoring: Visual Monitoring, Self-Sensing Comparison of Calibration Methods in Inkjet Printing System Integration Inks APPLICATIONS Displays: Color Filter Fabrication, Polymer Displays, Quantum-Dot LED Displays with Printable Processes ThinFilm Transistors: OTFT, Metal Oxides Printed Circuit Boards Photovoltaics Rapid Prototyping: Phase Change, High Aspect Ratio Printing Sensors: Chemical Sensors, RF Antennas, Medical Imaging (MRI Coils) Actuators MEMS Biological Devices Connects and Interconnects

Autorenportrait

InhaltsangabeOVERVIEW OF INKJET-BASED MICROMANUFACTURING Introduction Inkjet Technology Fluid Requirements Pattern Formation: Fluid/Substrate Interaction Micromanufacturing Examples of Inkjet in Micromanufacturing Conclusions COMBINATORIAL SCREENING OF MATERIALS USING INKJET PRINTING AS A PATTERNING TECHNIQUE Introduction Inkjet Printing - from Well-Defined Dots to Homogeneous Films ThinFilm Libraries Prepared by Inkjet Printing Combinatorial Screening of Materials for Organic Solar Cells Conclusion and Outlook THERMAL INKJET History of Thermal Inkjet Technology Market Trends for Inkjet Products and Electrophotography Structures of Various TIJ Heads Research on Rapid Boiling and Principle of TIJ Inkjetting Mechanism of TIJ Basic Jetting Behavior of TIJ TIJ Behavior Analysis Using Simulation Issues with Reliability in TIJ Present and Future Evolution in TIJ Technology HIGHRESOLUTION ELECTROHYDRODYNAMIC INKJET Introduction Printing System Control of Jet Motions DroponDemand Mode Printing Versatility of Printable Materials and Resolutions Applications in Electronics and Biotechnology HighResolution Printing of Charge CROSS TALK IN PIEZO INKJET Introduction Electrical Cross Talk Direct Cross Talk PressureInduced Cross Talk Acoustic Cross Talk Printhead Resonance Residual Vibrations PATTERNING Introduction Conclusion DRYING OF INKJET-PRINTED DROPLETS Introduction Modeling of Drying of a Droplet Results POSTPRINTING PROCESSES FOR INORGANIC INKS FOR PLASTIC ELECTRONICS APPLICATIONS Introduction Inkjet Printing and Postprinting Processes of Metallic Inks Conclusions and Outlook VISION MONITORING Introduction Measurement Setup Image Processing Jetting Speed Measurement Head Normalization and Condition Monitoring Meniscus Motion Measurement and Its Application ACOUSTIC MONITORING Introduction SelfSensing Measuring Principle Drop Formation, Refill, and Wetting Dirt Air Bubbles Printhead Control EQUALIZATION OF JETTING PERFORMANCE Equalization of the Droplet Volume on the Fly Droplet Volume Equalization with Sessile Droplets INKJET INK FORMULATIONS Introduction Ink Formulation Ink Parameters and Additives Jetting Performance Ink Interaction with Substrates Nongraphic Applications Conclusions ISSUES IN COLOR FILTER FABRICATION WITH INKJET PRINTING Introduction Background Comparison of Printing Technologies Printing Swathe due to Droplet Volume Variation Subpixel Filling with a Designed Surface Energy Condition Other Technical Issues Conclusion APPLICATION OF INKJET PRINTING IN HIGH-DENSITY PIXELATED RGB QUANTUM DOT-HYBRID LEDS Introduction Background Experimental Procedure and Results InkjetPrinted, HighDensity RGB Pixel Matrix Conclusion INKJET PRINTING OF METAL OXIDE THIN-FILM TRANSISTORS Introduction Materials for Metal Oxide Semiconductors Inkjet Printing Issues SolutiontoSolid Conversion by Annealing AllOxide Invisible Transistors Summary INKJET FABRICATION OF PRINTED CIRCUIT BOARDS Introduction Traditional Printed Circuit Board Processes Challenges for Inkjet in Printed Circuit Boards LegendMarking Processes Innerlayer Copper Circuit Patterning Copper Plating Resist Waste Reduction Using Inkjet Printing Solder Mask Printing Metallic Inks Theoretical Printing Example for PCB Manufacturing Digital Printing Alternatives to Inkjet Fabrication Future Applications for Inkjet in Printed Circuit Boards PHOTOVOLTAICS Introduction Device Structures Small and LargeArea Printing for Photovoltaics Commercial Inkjet for Photovoltaics Summary and Perspective INKJET PRINTED ELECTROCHEMICAL SENSORS Introduction Printed Sensor Manufacturing Inkjet Printing of Sensor Components InkjetPrinted Sensor Applications Future Commercial Projection ANTENNAS FOR RADIO FREQUENCY IDENTIFICATION TAGS Introd

Leseprobe

Leseprobe

Informationen gemäß Produktsicherheitsverordnung

Hersteller:
Wiley-VCH GmbH
amartine@wiley-vch.de
Boschstr. 12
DE 69469 Weinheim